Cooperative Research Centre for Forestry, Private Bag 12, Hobart, Tasmania 7001, Australia.
Tree Physiol. 2011 Jun;31(6):592-603. doi: 10.1093/treephys/tpr046. Epub 2011 Jun 21.
The phloem-feeding aphid Essigella californica represents a potential threat to the productivity of Pinus radiata plantations in south-eastern Australia. Five- and nine-year-old field trials were used to characterize the effects of artificial and natural aphid-induced (E. californica) defoliation, respectively, on shoot photosynthesis and growth. Photosynthetic capacity (A(max)) was significantly greater following a 25% (D25) (13.8 µmol m(-2) s(-1)) and a 50% (D50) (15.9 µmol m(-2) s(-1)) single-event upper-crown artificial defoliation, 3 weeks after defoliation than in undefoliated control trees (12.9 µmol m(-2) s(-1)). This response was consistently observed for up to 11 weeks after the defoliation event; by Week 16, there was no difference in A(max) between control and defoliated trees. In the D50 treatment, this increased A(max) was not sufficient to fully compensate for the foliage loss as evidenced by the reduced diameter increment (by 15%) in defoliated trees 36 weeks after defoliation. In contrast, diameter increment of trees in the D25 treatment was unaffected by defoliation. The A(max) of trees experiencing upper-crown defoliation by natural and repeated E. californica infestations varied, depending on host genotype. Despite clear differences in defoliation levels between resistant and susceptible genotypes (17 vs. 35% of tree crown defoliated, respectively), growth of susceptible genotypes was not significantly different from that of resistant genotypes. The observed increases in A(max) in the lower crown of the canopy following attack suggested that susceptible genotypes were able to partly compensate for the loss of foliage by compensatory photosynthesis. The capacity of P. radiata to regulate photosynthesis in response to natural aphid-induced defoliation provides evidence that the impact of E. californica attack on stem growth will be less than expected, at least for up to 35% defoliation.
加利福尼亚吹绵蚧(Essigella californica)是一种吸食韧皮部汁液的蚜虫,对澳大利亚东南部辐射松种植园的生产力构成潜在威胁。本研究分别采用 5 年和 9 年生田间试验,对人工和自然条件下(由加利福尼亚吹绵蚧引起)的叶片损失对新梢光合作用和生长的影响进行了描述。单次去除树冠上部 25%(D25)(13.8 µmol m(-2) s(-1))和 50%(D50)(15.9 µmol m(-2) s(-1))叶片后,叶片去除 3 周后,新梢光合能力(A(max))明显大于未去除叶片的对照树(12.9 µmol m(-2) s(-1))。在叶片去除后 11 周内,这种响应持续存在;在第 16 周时,对照和去除叶片的树木之间的 A(max)没有差异。在 D50 处理中,这种 A(max)的增加不足以完全补偿叶片损失,因为在叶片去除 36 周后,去除叶片的树木的直径增量(减少 15%)。相比之下,D25 处理中去除叶片对树木的直径增量没有影响。经历树冠上部由自然和重复的加利福尼亚吹绵蚧侵害导致的叶片去除后,树木的 A(max)会发生变化,这取决于宿主基因型。尽管在抗性和敏感性基因型之间存在明显的叶片损失差异(分别为 17%和 35%的树冠叶片损失),但敏感性基因型的生长与抗性基因型没有显著差异。在树冠下部冠层受到攻击后,A(max)的增加表明敏感性基因型能够通过补偿性光合作用来部分补偿叶片损失。辐射松对自然条件下由蚜虫引起的叶片去除做出的光合作用调节能力,为加利福尼亚吹绵蚧攻击对茎生长的影响将小于预期提供了证据,至少在去除叶片达 35%的情况下是如此。
